CN114348418A - Real-time remote control equipment for power grid transportation and use method thereof - Google Patents

Real-time remote control equipment for power grid transportation and use method thereof Download PDF

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Publication number
CN114348418A
CN114348418A CN202111580723.XA CN202111580723A CN114348418A CN 114348418 A CN114348418 A CN 114348418A CN 202111580723 A CN202111580723 A CN 202111580723A CN 114348418 A CN114348418 A CN 114348418A
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fixedly connected
spring
block
real
remote control
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CN114348418B (en
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顾黎强
郑立中
韩建伟
郑逸非
张李明
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Construction Branch of State Grid Anhui Electric Power Co Ltd
Anhui Electric Power Engineering Supervision Co Ltd
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Construction Branch of State Grid Anhui Electric Power Co Ltd
Anhui Electric Power Engineering Supervision Co Ltd
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Publication of CN114348418A publication Critical patent/CN114348418A/en
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Abstract

The invention discloses a real-time remote control device for power grid transportation and a use method thereof, belonging to the technical field of power equipment transportation safety. According to the invention, after the probe extends out of the adsorption box body, the remote image of the recording device can be monitored and uploaded to the cloud control center, so that the integration processing of the probe in the adsorption box body can be met, the probe can be automatically extruded after being placed, the adverse effect caused by remote sensing signal transmission is reduced through ingenious linkage matching, the probe can automatically reset under the elastic force of the fourth spring at the top after being held and enters the adsorption box body, and the use portability and the durability are improved.

Description

Real-time remote control equipment for power grid transportation and use method thereof
Technical Field
The invention belongs to the technical field of power equipment transportation safety, and particularly relates to a real-time remote control device for power grid transportation and a use method thereof.
Background
The transportation state of the large-scale power grid equipment is an important change in quality supervision of the large-scale equipment, and is suitable for the remote data monitoring terminal for transportation of the large-scale power equipment. And general transport vehicle equipment does not have data acquisition monitoring ability such as acquisition monitoring power equipment transportation in-process collision, speed, humiture, can not fine satisfy the processing needs that real-time remote control detected when electric wire netting equipment transports.
Chinese patent document CN111342990A discloses a block chain-based power grid equipment quality tracing system, which includes an industrial block chain and an application layer connected by an intelligent contract, where the industrial block chain includes an interface layer, a contract layer, a basic service layer and a network layer; the application layer comprises a power grid center and a manufacturer center, wherein the power grid center comprises a manual module, an automatic acquisition module, a clustering module, a defect clustering module and an asset clustering module; the automatic acquisition module collects node information of a power supply place and sends the node information to the manual module, the manual module carries out classification processing and sends the node information to the defect clustering module and the asset clustering module respectively; the method comprises the following steps of realizing the management and control of the running state of a mobile terminal state monitoring device and the pre-alarm condition of the device through a mobile security access technology; the purposes of no distance, no delay in time, no barrier in information and no barrier in cooperation are achieved through the application of the operation terminal; the technical scheme discloses quality tracing of power grid equipment during transportation, but in actual use, signal transmission is easily caused by the influence of an external environment when sensing signals of a sensing module are detected at a vehicle end, the quality of a detection channel is not controllable, and the on-road monitoring requirement cannot be well met.
Disclosure of Invention
The invention aims to: the power grid transportation real-time remote control equipment and the use method thereof are provided for solving the problems that signal transmission is easy to cause by the influence of an external environment and the quality of a detection channel is uncontrollable when a sensing signal of a sensing module is detected at a vehicle end.
In order to achieve the purpose, the invention adopts the following technical scheme:
the utility model provides a real-time remote control equipment of electric wire netting transportation, includes guard box and absorption box, the guard box top articulates there is the apron, it is connected with adjustment mechanism to adsorb the transmission of box inner chamber, the adjustment mechanism bottom has set firmly the buffing pad, buffing pad bottom both sides all are connected with magnetism through the locating lever transmission and inhale the base, the adjustment mechanism bottom is worn to locate in the cell body that magnetism was inhaled base and buffing pad one side and was seted up, the probe mechanism has all been laminated to the adjustment mechanism both sides for drive through adjustment mechanism drives probe mechanism and extends to the absorption box outside, adsorb box top fixed mounting tuber pipe seat, it is equipped with sensing mechanism to adsorb the box inner chamber, and sensing mechanism extends to inside the tuber pipe seat.
As a further description of the above technical solution:
the adjusting mechanism comprises an adjusting extrusion block, the bottom of the adjusting extrusion block is fixedly connected with an adjusting main shaft, the bottom of the adjusting main shaft is fixedly connected with a butt convex block, the butt convex block extends to the bottom side of the magnetic suction base, the magnetic suction base and the top opening of the buffer base are both in sliding connection with the adjusting main shaft, and the adjusting extrusion block is attached to a side probe mechanism.
As a further description of the above technical solution:
the adjusting extrusion piece bottom both sides all articulate through the round pin axle has the connecting rod, the connecting rod end articulates through the round pin axle has the fixed block, the first sliding sleeve of fixed block bottom fixedly connected with, first sliding sleeve inner chamber sliding connection has first slide bar, first slide bar both ends are fixed connection respectively in the cell body that the adsorption box body inner chamber was seted up, first slide bar lateral wall cover is equipped with first spring, first spring both ends respectively with first sliding sleeve and the terminal fixed connection of cell body inner chamber.
As a further description of the above technical solution:
the protection box comprises a protection box inner cavity and is characterized in that an inner filling block is fixedly connected to the inner cavity of the protection box, the inner filling block is attached to the bottom of the magnetic suction base at one side, a flexible cushion is fixedly connected to the bottom of the inner cavity of the protection box, a cushion pad is fixedly connected to the top of the flexible cushion, and the cushion pad is attached to the bottom of the abutting convex block.
As a further description of the above technical solution:
probe mechanism includes the probe assembly of two relative settings, probe assembly one side fixedly connected with removes the axle, remove axle sliding connection and inlay in the sealing washer established in adsorbing the box inner chamber, it corresponds position fixedly connected with packing ring with the sealing washer to remove the axle, the packing ring is laminated mutually with sealing washer one side, remove axle other end fixedly connected with set-square, the set-square is laminated mutually with adjustment mechanism one side, remove axle top fixedly connected with second sliding sleeve, sliding connection has the second slide bar in the second sliding sleeve, second slide bar fixed connection is in adsorbing box inner chamber one side, second slide bar lateral wall cover is equipped with the fourth spring, the fourth spring both ends respectively with second sliding sleeve and the terminal one side fixed connection of second slide bar.
As a further description of the above technical solution:
adsorb the equal fixedly connected with seal cover in box both sides, probe assembly wears to locate in the seal cover, seal cover inner chamber one side fixedly connected with cleans the pad, it sets up in the probe assembly outside to clean the pad cover, the outside intercommunication of seal cover has the subassembly of cleaning, clean the subassembly including connecting at the outside hydrojet ring of seal cover, hydrojet ring bottom intercommunication has the connecting pipe, buffer base one side and the intercommunication have the liquid bag are worn to locate to connecting rod socle portion, the liquid bag sets firmly in the cell body that the base top was seted up is inhaled to the magnetism, buffer base bottom fixedly connected with extrusion piece, it laminates mutually with the liquid bag top to extrude a bottom.
As a further description of the above technical solution:
adsorb the equal fixedly connected with seal cover in box both sides, probe assembly wears to locate in the seal cover, seal cover inner chamber one side fixedly connected with cleans the pad, it sets up in the probe assembly outside to clean the pad cover, the outside intercommunication of seal cover has the subassembly of cleaning, clean the subassembly including connecting at the outside hydrojet ring of seal cover, hydrojet ring bottom intercommunication has the connecting pipe, buffer base one side and the intercommunication have the liquid bag are worn to locate to connecting rod socle portion, the liquid bag sets firmly in the cell body that the base top was seted up is inhaled to the magnetism, buffer base bottom fixedly connected with extrusion piece, it laminates mutually with the liquid bag top to extrude a bottom.
As a further description of the above technical solution:
sensing mechanism includes the liftout plate, a plurality of sensor assembly of liftout plate top fixedly connected with, liftout plate bottom fixedly connected with connecting rod, connecting rod bottom fixedly connected with butt ball, butt ball and the laminating of adjustment mechanism top mutually, the equal fixedly connected with slider in connecting rod both ends, slider sliding connection is in the cell body that adsorption tank inner chamber was seted up, slider inner chamber sliding connection has the bracing piece, the bracing piece both ends correspond position fixed connection with cell body inner chamber both sides respectively, bracing piece lateral wall cover is equipped with the second spring, the second spring both ends correspond position fixed connection with slider and cell body inner chamber one side respectively.
As a further description of the above technical solution:
the sensor assembly comprises a measuring gyroscope, a temperature and humidity sensor and a positioning sensor.
As a further description of the above technical solution:
a using method of a power grid transportation real-time remote control device specifically comprises the following steps:
s1, when the power grid equipment needs to be transported remotely, the adsorption box body can be held and moved out of the inner filling blocks at two sides of the bottom after the cover plate is opened and the hinge at one side is unfolded, and the adsorption box body is adsorbed on the surface of the equipment to be transported through the bottom magnetic adsorption base;
s2, after the magnetic base absorbs the equipment, the abutting convex block at the bottom side can move upwards under the attaching effect of the magnetic base and the equipment, the abutting convex block moves upwards to drive the top adjusting spindle to move upwards, the adjusting spindle moves to drive the top adjusting extrusion block to move upwards, the adjusting extrusion block moves upwards to extrude a triangle at one side, the triangle can be extruded, the triangle is stressed to drive the moving shaft at one side to move, after the moving shaft moves in the sealing ring, the probe assembly at one side of the moving shaft can penetrate through a sealing sleeve at one side and extend out of the adsorption box, and after the probe extends out of the adsorption box, the probe can monitor and record remote images of the equipment and upload the remote images to a cloud control center;
s3, when the adjusting main shaft moves upwards, the abutting ball can be driven to move upwards at the same time, the abutting ball moves upwards to drive the sliding blocks on the two sides to slide in the groove, the sliding blocks move to extrude the second spring on one side, and meanwhile, the abutting ball can drive the top connecting rod to upwards push the ejection plate to move into the air pipe seat, so that the driver assembly at the top of the ejection plate inserted into the air pipe seat can monitor temperature and humidity changes in the transportation process, and the temperature change detection timeliness is improved through the convection effect of the air pipe seat in the advancing process;
s4, when external wind is too large in the transportation process, wind disturbance can be adjusted through sliding of the positioning sleeve outside the positioning rod through the buffer seat at the bottom, the positioning sleeve can extrude a third spring at the top when moving, the third spring can absorb wind disturbance frequency vibration by utilizing self elasticity, the stability of the device is effectively improved, and when offset stress can drive the adjusting main shaft to move downwards through the adjusting extrusion block, the adjusting main shaft can deflect and move downwards around the fixing block through the connecting rods at two sides, the fixing block can move to drive the first sliding sleeve at one side to slide outside the first sliding rod, the first sliding sleeve can extrude the first spring while moving, and the first spring can ensure the energy absorption treatment effect by utilizing self tension;
s5, after the transportation is finished, the magnetic suction base is separated from the top of the equipment and then placed into the protection box, and the storage is finished.
In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:
1. in the invention, after the magnetic base adsorbs equipment, the abutting convex block at the bottom side can move upwards under the attaching action of the magnetic base and the equipment, the abutting convex block moves upwards to drive the top adjusting main shaft to move upwards to extrude a triangular plate at one side, the triangular plate can drive a probe assembly at one side of a movable shaft to penetrate through a sealing sleeve at one side and extend out of an adsorption box under the action of force after being extruded, and after the probe extends out of the adsorption box, the probe can monitor and record a remote image of the equipment and upload the remote image to a cloud control center, thereby meeting the integrated treatment of the probe in the adsorption box body, automatically extruding the probe after being placed, reducing the adverse effect brought by the transmission of remote sensing signals through the ingenious linkage matching, and can be in holding back through automatic re-setting entering adsorption tank under the elasticity of top fourth spring, improve and use portability and durability.
2. In the invention, when the adjusting main shaft moves upwards, the abutting ball can be driven to move upwards at the same time, the abutting ball can move upwards to drive the sliding blocks at two sides to slide in the groove body, the sliding block can move to extrude a second spring at one side, the abutting ball can drive the top connecting rod to upwards push the ejecting plate to move into the air pipe seat, the driver component at the top of the ejecting plate inserted into the air pipe seat can monitor temperature and humidity changes in the transportation process, and the detection timeliness in temperature change is improved through the convection effect of the air pipe seat in the advancing process, and when vibration occurs, the gyroscope can output a sensing signal according to the vibration change, so that terminal personnel can conveniently judge and detect the change of equipment conditions in the transportation process, and when offset stress can drive the adjusting main shaft to move downwards through the adjusting extrusion block, the adjusting main shaft can drive the first sliding sleeve at one side to extrude the first spring through the connecting rods at two sides, the first spring can utilize self pulling force to guarantee the energy-absorbing treatment effect, and then can reduce the low frequency vibration influence to the sensor assembly through the shock attenuation energy-absorbing to when striking efficiency appearing, upload high in the clouds linkage probe subassembly and carry out the recording storage.
3. According to the invention, when external wind power is too large in the transportation process, wind power disturbance can be adjusted in a sliding mode through the positioning sleeve outside the positioning rod through the buffer seat at the bottom, the third spring at the top can be extruded when the positioning sleeve moves, the third spring can absorb wind power disturbance frequency vibration by utilizing self elasticity, the stability of the device is effectively improved, in addition, when primary frequency vibration exists, the positioning sleeve moves to drive the buffer seat sheet to extrude the liquid bag through the bottom extrusion block, water liquid in the liquid bag can be blown into the sealing sleeve through the liquid spraying ring, cleaning liquid can clean and remove dust adhered to the surface of the cleaning pad, and in addition, when the probe assembly is subjected to telescopic work next time, the surface neatness of the video camera lens is improved, and the use requirements are met.
Drawings
Fig. 1 is a schematic perspective view of a real-time remote control device for power grid transportation according to the present invention;
fig. 2 is a schematic front view of a power grid transportation real-time remote control device according to the present invention;
fig. 3 is an enlarged schematic structural diagram of a part a of a power grid transportation real-time remote control device according to the present invention;
fig. 4 is an enlarged schematic structural diagram of a part B of a power grid transportation real-time remote control device according to the present invention;
FIG. 5 is a schematic structural diagram of a probe mechanism of a real-time remote control device for power grid transportation according to the present invention;
FIG. 6 is a schematic structural diagram of an adjusting extrusion block of the real-time remote control device for power grid transportation according to the present invention;
FIG. 7 is a schematic diagram of a link hinge assembly structure of a real-time remote control device for power grid transportation according to the present invention;
fig. 8 is a schematic perspective view of a moving axis of a real-time remote control device for power grid transportation according to the present invention.
Illustration of the drawings:
1. a protection box; 2. a cover plate; 3. an adsorption box body; 4. an adjustment mechanism; 401. adjusting the extrusion block; 402. adjusting the main shaft; 403. abutting the bump; 404. a cushion pad; 405. a flexible pad; 406. a connecting rod; 407. a fixed block; 408. a first sliding sleeve; 409. a first spring; 410. a first slide bar; 5. a probe mechanism; 501. a probe assembly; 502. a gasket; 503. a movable shaft; 504. cleaning the pad; 505. sealing sleeves; 506. a seal ring; 507. a second slide bar; 508. a second sliding sleeve; 509. a fourth spring; 510. a set square; 6. a sweeping assembly; 601. a liquid spraying ring; 602. a connecting pipe; 603. a liquid sac; 604. extruding the block; 7. a sensing mechanism; 701. ejecting the plate; 702. a sensor assembly; 703. a connecting rod; 704. abutting the ball; 705. a slider; 706. a support bar; 707. a second spring; 8. a magnetic base; 9. a buffer seat; 10. positioning a rod; 11. a third spring; 12. a duct base; 13. and filling the blocks.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides a real-time remote control equipment of electric wire netting transportation, includes guard box 1 and adsorbs box 3, 1 top of guard box articulates there is apron 2, it is connected with adjustment mechanism 4 to adsorb 3 inner chamber transmissions of box, adjustment mechanism 4 bottom has set firmly cushion socket 9, cushion socket 9 bottom both sides all are connected with magnetism through locating lever 10 transmission and inhale base 8, 4 bottoms of adjustment mechanism wear to locate in the cell body that magnetism was inhaled base 8 and was seted up on one side of cushion socket 9, 4 both sides of adjustment mechanism all laminate probe mechanism 5 for drive through adjustment mechanism 4 drives probe mechanism 5 and extends to adsorbing 3 outer extensions of box, adsorb 3 top fixed mounting wind tube seats 12 of box, it is equipped with sensing mechanism 7 to adsorb 3 inner chambers of box, and sensing mechanism 7 extends to inside wind tube seat 12.
The adjusting mechanism 4 comprises an adjusting extrusion block 401, the bottom of the adjusting extrusion block 401 is fixedly connected with an adjusting spindle 402, the bottom of the adjusting spindle 402 is fixedly connected with an abutting convex block 403, the abutting convex block 403 extends to the bottom side of the magnetic base 8, the openings at the top parts of the magnetic suction base 8 and the buffer base 9 are both connected with an adjusting main shaft 402 in a sliding way, the adjusting extrusion block 401 is attached to the probe mechanism 5 at one side, two sides of the bottom of the adjusting extrusion block 401 are hinged with a connecting rod 406 through a pin shaft, the tail end of the connecting rod 406 is hinged with a fixed block 407 through a pin shaft, the bottom of the fixed block 407 is fixedly connected with a first sliding sleeve 408, the inner cavity of the first sliding sleeve 408 is slidably connected with a first sliding rod 410, two ends of the first sliding rod 410 are respectively and fixedly connected in a groove body arranged in the inner cavity of the adsorption box body 3, a first spring 409 is sleeved on the outer side wall of the first sliding rod 410, and two ends of the first spring 409 are respectively fixedly connected with the first sliding sleeve 408 and the tail end of the inner cavity of the groove body;
the implementation mode is specifically as follows: the first sliding rod 410 is more stable through sliding in the first sliding sleeve 408, offset of abutting stress can be effectively avoided, supporting energy absorption stability is improved, rotation stability can be guaranteed through hinging of two ends and a pin shaft by the connecting rod 406, the air pipe seat 12 is preferably circular in cross section, uniformity of entering of air quantity is guaranteed, testing effect is improved, the cross section of the extrusion block 401 is adjusted to be conical, and the extrusion effect of the peripheral side can be guaranteed through the conical adjustment extrusion block 401.
The inner cavity of the protection box 1 is fixedly connected with an inner filling block 13, the inner filling block 13 is attached to the bottom of the magnetic suction base 8 at one side, the bottom of the inner cavity of the protection box 1 is fixedly connected with a flexible pad 405, the top of the flexible pad 405 is fixedly connected with a cushion pad 404, the cushion pad 404 is attached to the bottom of the abutting convex block 403, the probe mechanism 5 comprises two probe assemblies 501 arranged oppositely, one side of each probe assembly 501 is fixedly connected with a moving shaft 503, the moving shaft 503 is slidably connected into a sealing ring 506 embedded in the inner cavity of the adsorption box body 3, the moving shaft 503 is fixedly connected with a gasket 502 corresponding to the sealing ring 506, the gasket 502 is attached to one side of the sealing ring 506, the other end of the moving shaft 503 is fixedly connected with a triangular plate 510, the triangular plate 510 is attached to one side of the adjusting mechanism 4, and the top of the moving shaft is fixedly connected with a second sliding sleeve 508, a second sliding rod 507 is slidably connected in the second sliding sleeve 508, the second sliding rod 507 is fixedly connected to one side of an inner cavity of the adsorption box body 3, a fourth spring 509 is sleeved on the outer side wall of the second sliding rod 507, two ends of the fourth spring 509 are respectively fixedly connected with the second sliding sleeve 508 and one side of the tail end of the second sliding rod 507, two sides of the adsorption box body 3 are both fixedly connected with a sealing sleeve 505, the probe assembly 501 penetrates through the sealing sleeve 505, one side of the inner cavity of the sealing sleeve 505 is fixedly connected with a cleaning pad 504, the cleaning pad 504 is sleeved outside the probe assembly 501, the sealing sleeve 505 is communicated with a cleaning assembly 6, the cleaning assembly 6 comprises a liquid spraying ring 601 connected outside the sealing sleeve 505, the bottom of the liquid spraying ring 601 is communicated with a connecting pipe 602, the bottom of the connecting rod 703 is penetrated through one side of the buffer seat 9 and communicated with a liquid bag 603, and the liquid bag 603 is fixedly arranged in a groove body formed in the top of the magnetic base 8, the bottom of the buffer seat 9 is fixedly connected with an extrusion block, and the bottom of the extrusion block 604 is attached to the top of the liquid bag 603.
The implementation mode is specifically as follows: the filling block can realize adsorbing box 3's abundant laminating to the inboard to base 8's butt is inhaled to bottom side magnetism to flexible pad 405 can be guaranteed, avoids receiving magnetic influence and takes place to interfere with outside iron component, spouts liquid ring 601 can be through the cooperation with sac 603, guarantees to clean the self-cleaning effect of filling up 504 to one side, and water liquid after the clearance can outwards drip through the bottom opening and ooze.
Sensing mechanism 7 includes liftout plate 701, a plurality of sensor assembly 702 of liftout plate 701 top fixedly connected with, liftout plate 701 bottom fixedly connected with connecting rod 703, connecting rod 703 bottom fixedly connected with butt ball 704, butt ball 704 laminates with adjustment mechanism 4 top mutually, the equal fixedly connected with slider 705 in connecting rod 703 both ends, slider 705 sliding connection is in adsorbing the cell body that 3 inner chambers of box were seted up, slider 705 inner chamber sliding connection has bracing piece 706, bracing piece 706 both ends correspond fixed position with cell body inner chamber both sides respectively, bracing piece 706 lateral wall cover is equipped with second spring 707, second spring 707 both ends correspond fixed position with slider 705 and cell body inner chamber one side respectively, sensor assembly 702 is including survey gyroscope, temperature and humidity sensor and positioning sensor.
The implementation mode is specifically as follows: the connecting rod 703 is more stable through the slip of slider 705 outside bracing piece 706, and second spring 707 can utilize self pulling force to pull ejecting plate 701 and the sensor unit 702 at the top and reset after adjusting extrusion block 401 and reset to sensor unit 702 can avoid the skew through the relative motion of slider 705 on both sides of connecting rod 703.
When the device is used, the cover plate 2 is opened, the hinge at one side is unfolded, the adsorption box body 3 is held and moved out from the inner filling blocks 13 at two sides of the bottom, and at the moment, the magnetic base 8 at the bottom of the adsorption box body 3 is adsorbed on the surface of equipment to be conveyed;
after the magnetic base 8 adsorbs the equipment, the abutting convex block 403 at the bottom side moves upwards under the attaching effect of the magnetic base 8 and the equipment, the abutting convex block 403 moves upwards to drive the top adjusting spindle 402 to move upwards, the adjusting spindle 402 moves to drive the top adjusting extrusion block 401 to move upwards, the adjusting extrusion block 401 moves upwards to extrude a triangular plate 510 at one side, after the triangular plate 510 is extruded, the triangular plate is stressed to drive a moving shaft 503 to move, after the moving shaft 503 moves in the sealing ring 506, a probe assembly 501 at one side of the moving shaft 503 passes through a sealing sleeve 505 at one side and extends out of the adsorption box body 3, and after the probe extends out of the adsorption box body 3, the remote image of the equipment is monitored and recorded and uploaded to a cloud control center;
when the adjusting main shaft 402 moves upwards, the abutting ball 704 is driven to move upwards, the abutting ball 704 moves upwards to drive the sliding blocks 705 at the two sides to slide in the groove, the sliding block 705 moves to extrude the second spring 707 at one side, meanwhile, the abutting ball 704 drives the top connecting rod 703 to push the ejection plate 701 upwards to move into the air pipe seat 12, at the moment, the driver assembly at the top of the ejection plate 701, which moves into the air pipe seat 12, monitors the temperature and humidity change in the transportation process and the convection effect of the air pipe seat 12 in the traveling process, so that the timeliness of temperature change detection is improved, when vibration occurs, the gyroscope outputs a sensing signal according to the vibration change, and a terminal person can conveniently judge and detect the change of equipment conditions in the transportation process;
when external wind power is too large in the transportation process, the buffer seat 9 at the bottom of wind power disturbance is positioned and sleeved on the sliding adjustment outside the positioning rod 10, the positioning sleeve extrudes the third spring 11 at the top when moving, the third spring 11 absorbs wind power disturbance frequency vibration by utilizing self elasticity, the stability of the device is effectively improved, when the offset stress adjusting extrusion block 401 drives the adjusting main shaft 402 to move downwards, the connecting rods 406 at two sides of the adjusting main shaft 402 downwards deflect and move around the fixed block 407, the fixed block 407 moves to drive the first sliding sleeve 408 at one side to slide outside the first sliding rod 410, the first sliding sleeve 408 moves to simultaneously extrude the first spring 409, and the first spring 409 utilizes self tension to ensure the energy absorption treatment effect;
after the transportation is finished, the magnetic suction base 8 is separated from the top of the equipment and then placed into the protection box 1, and the storage is finished.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a real-time remote control equipment of electric wire netting transportation, includes guard box (1) and adsorbs box (3), guard box (1) top articulates there is apron (2), its characterized in that, it is connected with adjustment mechanism (4) to adsorb box (3) inner chamber transmission, adjustment mechanism (4) bottom has set firmly buffer seat (9), buffer seat (9) bottom both sides all are connected with magnetism through locating lever (10) transmission and inhale base (8), adjustment mechanism (4) bottom is worn to locate in the cell body that magnetism was seted up base (8) and buffer seat (9) one side, adjustment mechanism (4) both sides all laminate probe mechanism (5) for drive probe mechanism (5) through adjustment mechanism (4) extend outside adsorbing box (3), adsorb box (3) top fixed mounting wind tube seat (12), it is equipped with sensing mechanism (7) to adsorb box (3) inner chamber, and the sensing mechanism (7) extends to the interior of the wind pipe seat (12).
2. The real-time remote control equipment for power grid transportation according to claim 1, wherein the adjusting mechanism (4) comprises an adjusting extrusion block (401), an adjusting main shaft (402) is fixedly connected to the bottom of the adjusting extrusion block (401), an abutting convex block (403) is fixedly connected to the bottom of the adjusting main shaft (402), the abutting convex block (403) extends to the bottom side of the magnetic suction base (8), the magnetic suction base (8) and the top opening of the buffer base (9) are both in sliding connection with the adjusting main shaft (402), and the adjusting extrusion block (401) is attached to a side probe mechanism (5).
3. The real-time remote control equipment of electric wire netting transportation of claim 1, characterized in that, it has connecting rod (406) all to adjust extrusion piece (401) bottom both sides through the round pin axle is articulated, connecting rod (406) end is articulated through the round pin axle has fixed block (407), fixed block (407) bottom fixedly connected with first sliding sleeve (408), first sliding sleeve (408) inner chamber sliding connection has first slide bar (410), first slide bar (410) both ends are fixed connection respectively in the cell body that absorption box (3) inner chamber was seted up, first slide bar (410) lateral wall cover is equipped with first spring (409), first spring (409) both ends respectively with first sliding sleeve (408) and cell body inner chamber end fixed connection.
4. The real-time remote control equipment for power grid transportation according to claim 1, wherein an inner filling block (13) is fixedly connected to the inner cavity of the protection box (1), the inner filling block (13) is attached to the bottom of the magnetic base (8) on one side, a flexible pad (405) is fixedly connected to the bottom of the inner cavity of the protection box (1), a cushion pad (404) is fixedly connected to the top of the flexible pad (405), and the cushion pad (404) is attached to the bottom of the abutting convex block (403).
5. The real-time remote control equipment for power grid transportation according to claim 1, wherein the probe mechanism (5) comprises two oppositely arranged probe assemblies (501), one side of the probe assemblies (501) is fixedly connected with a moving shaft (503), the moving shaft (503) is slidably connected in a sealing ring (506) embedded in the inner cavity of the adsorption box body (3), the moving shaft (503) is fixedly connected with a gasket (502) at a position corresponding to the sealing ring (506), the gasket (502) is attached to one side of the sealing ring (506), the other end of the moving shaft (503) is fixedly connected with a triangular plate (510), the triangular plate (510) is attached to one side of the adjusting mechanism (4), the top of the moving shaft (503) is fixedly connected with a second sliding sleeve (508), a second sliding rod (507) is slidably connected in the second sliding sleeve (508), and the second sliding rod (507) is fixedly connected to one side of the inner cavity of the adsorption box body (3), the outer side wall of the second sliding rod (507) is sleeved with a fourth spring (509), and two ends of the fourth spring (509) are fixedly connected with the second sliding sleeve (508) and one side of the tail end of the second sliding rod (507) respectively.
6. The real-time remote control equipment for power grid transportation according to claim 1, wherein sealing sleeves (505) are fixedly connected to both sides of the adsorption box body (3), the probe assemblies (501) are arranged in the sealing sleeves (505) in a penetrating manner, cleaning pads (504) are fixedly connected to one side of the inner cavity of the sealing sleeves (505), the cleaning pads (504) are arranged outside the probe assemblies (501) in a sleeved manner, cleaning assemblies (6) are communicated with the outside of the sealing sleeves (505), each cleaning assembly (6) comprises a liquid spraying ring (601) connected to the outside of the sealing sleeve (505), a connecting pipe (602) is communicated with the bottom of the liquid spraying ring (601), a liquid bag (603) is arranged at one side of the buffer base (9) in a penetrating manner and communicated with the bottom of the connecting rod (703), the liquid bag (603) is fixedly arranged in a groove body formed at the top of the magnetic adsorption base (8), and an extrusion block is fixedly connected to the bottom of the buffer base (9), the bottom of the extrusion block (604) is attached to the top of the liquid bag (603).
7. The real-time remote control equipment for power grid transportation according to claim 1, wherein both sides of the top of the buffer seat (9) are fixedly connected with positioning sleeves, inner cavities of the positioning sleeves are slidably connected with positioning rods (10), the bottom ends of the positioning rods (10) are fixedly connected to the top of the magnetic suction base (8), the outer side wall of each positioning rod (10) is sleeved with a third spring (11), the top of each positioning rod (10) is fixedly connected with a step mounting block, and both ends of each third spring (11) are respectively fixedly connected with the positioning sleeves and the tail end step mounting block.
8. The real-time remote control device for power grid transportation according to claim 1, wherein the sensing mechanism (7) comprises an ejector plate (701), the top of the ejector plate (701) is fixedly connected with a plurality of sensor assemblies (702), the bottom of the ejector plate (701) is fixedly connected with a connecting rod (703), the bottom of the connecting rod (703) is fixedly connected with a butting ball (704), the butting ball (704) is jointed with the top of the adjusting mechanism (4), both ends of the connecting rod (703) are fixedly connected with sliders (705), the sliders (705) are slidably connected in grooves formed in the inner cavity of the adsorption box body (3), the inner cavity of the slider (705) is slidably connected with a supporting rod (706), both ends of the supporting rod (706) are fixedly connected with corresponding positions on both sides of the inner cavity respectively, a second spring (707) is sleeved on the outer side wall of the supporting rod (706), and two ends of the second spring (707) are respectively fixedly connected with the sliding block (705) and one side of the inner cavity of the groove body at corresponding positions.
9. A grid transport real-time remote control device according to claim 1, wherein the sensor assembly (702) comprises a measurement gyroscope, a temperature and humidity sensor and a positioning sensor.
10. A method for using a power grid transportation real-time remote control device, which is applied to the power grid transportation real-time remote control device of claims 1 to 9, and specifically comprises the following steps:
s1, when the power grid equipment needs to be transported remotely, the adsorption box body (3) can be held and moved out from the inner filling blocks (13) on the two sides of the bottom after the cover plate (2) is opened and the hinge is unfolded from one side, and the adsorption box body (3) is adsorbed on the surface of the equipment to be transported through the bottom magnetic absorption base (8);
at the step of S2, the method comprises the steps of, after the magnetic base (8) adsorbs equipment, a butt convex block (403) on the bottom side can move upwards under the attaching effect of the magnetic base (8) and the equipment, the butt convex block (403) moves upwards to drive a top adjusting main shaft (402) to move upwards, the adjusting main shaft (402) moves to drive a top adjusting extrusion block (401) to move upwards, the adjusting extrusion block (401) moves upwards to extrude a side triangular plate (510), the triangular plate (510) can be extruded, and then is stressed to drive a side moving shaft (503) to move, the moving shaft (503) moves in a sealing ring (506), a probe assembly (501) on one side of the moving shaft (503) can penetrate through a side sealing sleeve (505) and extend out of the adsorption box body (3), and after the probe extends out of the adsorption box body (3), the remote image of the recording equipment can be monitored and recorded and uploaded to a cloud control center;
s3, when the adjusting main shaft (402) moves upwards, the abutting ball (704) can be driven to move upwards, the abutting ball (704) moves upwards to drive the sliding blocks (705) on the two sides to slide in the groove, the sliding blocks (705) move to extrude the second spring (707) on one side, meanwhile, the abutting ball (704) can drive the top connecting rod (703) to push the ejector plate (701) upwards to move into the wind pipe seat (12), the driver assembly on the top of the ejector plate (701) which is inserted into the wind pipe seat (12) can monitor temperature and humidity changes in the transportation process and improve the timeliness of temperature change detection through the convection effect of the wind pipe seat (12) in the advancing process, and when vibration occurs, the gyroscope can output sensing signals according to the vibration changes, so that terminal personnel can conveniently judge and detect changes of equipment conditions in the transportation process;
s4, when external wind is too large in the transportation process, wind disturbance can be adjusted in a sliding mode through a buffer seat (9) at the bottom and through a positioning sleeve outside a positioning rod (10), the positioning sleeve can extrude a third spring (11) at the top when moving, the third spring (11) can absorb wind disturbance frequency vibration through self elasticity, the stability of the device is effectively improved, offset stress can drive an adjusting main shaft (402) to move downwards through an adjusting extrusion block (401), the adjusting main shaft (402) can deflect and move downwards around a fixing block (407) through connecting rods (406) at two sides, the fixing block (407) can move to drive a first sliding sleeve (408) at one side to slide outside a first sliding rod (410), the first sliding sleeve (408) can simultaneously extrude a first spring (409) when moving, and the first spring (409) can ensure the energy absorption effect through self tension;
s5, after transportation, the magnetic suction base (8) is separated from the top of the equipment and then placed into the protection box (1) to be stored.
CN202111580723.XA 2021-12-22 2021-12-22 Real-time remote control equipment for power grid transportation and application method thereof Active CN114348418B (en)

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN209192741U (en) * 2018-09-10 2019-08-02 天津市利源捷能气调保鲜设备有限公司 Diesel engine, automobile, solar energy and electric network four-system power refrigeration container
CN211365428U (en) * 2020-01-08 2020-08-28 蒋鑫 Remote monitoring and fault processing device for electric power automation equipment
CN112811301A (en) * 2021-01-13 2021-05-18 杭州腾威商务咨询有限公司 Hanging basket with height adjusting function for building construction
CN213522741U (en) * 2020-12-21 2021-06-22 李婀茂 Remote monitoring and fault processing device for electric power automation equipment
CN113091803A (en) * 2021-03-15 2021-07-09 北京智芯微电子科技有限公司 In-transit monitoring method and system for material transportation

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN209192741U (en) * 2018-09-10 2019-08-02 天津市利源捷能气调保鲜设备有限公司 Diesel engine, automobile, solar energy and electric network four-system power refrigeration container
CN211365428U (en) * 2020-01-08 2020-08-28 蒋鑫 Remote monitoring and fault processing device for electric power automation equipment
CN213522741U (en) * 2020-12-21 2021-06-22 李婀茂 Remote monitoring and fault processing device for electric power automation equipment
CN112811301A (en) * 2021-01-13 2021-05-18 杭州腾威商务咨询有限公司 Hanging basket with height adjusting function for building construction
CN113091803A (en) * 2021-03-15 2021-07-09 北京智芯微电子科技有限公司 In-transit monitoring method and system for material transportation

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